In Silico Discovery of Covalent Organic Frameworks for Carbon Capture
Deeg, Kathryn S.; Borges, Daiane Damasceno; Ongari, Daniele; Rampal, Nakul; Talirz, Leopold; Yakutovich, Aliaksandr, V; Huck, Johanna M.; Smit, Berend
2020

Abstract

We screen a database of more than 69 000 hypothetical covalent organic frameworks (COFs) for carbon capture using parasitic energy as a metric. To compute CO2-framework interactions in molecular simulations, we develop a genetic algorithm to tune the charge equilibration method and derive accurate framework partial charges. Nearly 400 COFs are identified with parasitic energy lower than that of an amine scrubbing process using monoethanolamine; more than 70 are better performers than the best experimental COFs and several perform similarly to Mg-MOF-74. We analyze the effect of pore topology on carbon capture performance to guide the development of improved carbon capture materials.

Details

Title In Silico Discovery of Covalent Organic Frameworks for Carbon Capture
Author(s) Deeg, Kathryn S. ; Borges, Daiane Damasceno ; Ongari, Daniele ; Rampal, Nakul ; Talirz, Leopold ; Yakutovich, Aliaksandr, V ; Huck, Johanna M. ; Smit, Berend
Published in Acs Applied Materials & Interfaces
Volume 12
Issue 19
Pages 21559-21568
Date 2020-05-13
ISSN 1944-8244
1944-8252
Keywords
DOI https://doi.org/10.1021/acsami.0c01659
Other identifier(s) View record in Web of Science
Additional link Preprint on ChemRxiv
Laboratories LSMO
THEOS
Record Appears in Scientific production and competences > SB - School of Basic Sciences > ISIC - Institute of Chemical Sciences and Engineering > LSMO - Laboratory of molecular simulation
Scientific production and competences > STI - School of Engineering > IMX - Institute of Materials > THEOS - Laboratory of theory and simulation of materials
Peer-reviewed publications
Work produced at EPFL
Journal Articles
Published
Record creation date 2020-06-07

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